DE10226882A1 - Electronically controlled security cylinder lock has a blocking function which is controlled by a data transfer unit and receiving and transmitting units in the lock and key - Google Patents

Abstract

The key (1) has a high frequency transmitter (11) and a low frequency receiver (9) and the cylinder lock has a high frequency transmitter/receiver (4) and low frequency transmitter/receiver (3) while an adjacent data transfer unit (6) has a high frequency transmitter/receiver (12). The key transmits signals (d,f) to the lock and the data unit which either accepts or rejects the data code to release the blocking mechanism or not.

Description

The invention relates to a locking device with a transmission and Key having receiving device, the transmitting device by Receive an activation signal in a wireless data exchange with a fixed transmitting and receiving device Operating state can be brought and with a closure that after a data exchange the key with the fixed transmitting and receiving device and one Identification of the key on the basis of the exchanged data as Electrically operated opening authorization changes from a locked to a release position, with a data exchange connection to a central Data processing device for the transmission of event and / or programming data, and with one that is not wired to either the key or the lock Data transfer station for wireless data exchange with the key and / or the closure.

Locking devices are known in the prior art. The lock cylinder of a closure has an electrically actuated tumbler, one Microprocessor and a transmitting and receiving device. The associated key also has a transmitting and receiving device with a Microprocessor or memory. The closure is powered by the Frame the door of cables placed in the door leaf. These cables also form one Data exchange connection to a central data processing device. Event data from the Lock cylinders are sent to the data processing device. This Event data can include the time and an identification number of the key include. From the central data processing device Programming data are sent to the locking cylinder. This programming data can be saved in the lock. You can from the broadcast and The locking device also receives the key forwarded to program this.

To the lock cylinder of the known locking device The locking cylinder must first be moved to a release position to be activated. This is done mechanically, for example by touching, turning or Keys. After activating the lock cylinder sends and sends Receiving device an activation signal to the key. this happens by means of electromagnetic waves, for example at a frequency of 125 kHz. Based on the data packet sent to the key with the activation signal the key performs an authorization check as to whether it belongs to the associated one Lock cylinder heard and may close or open it. Come this Authorization check for a positive result, the key sends to the lock cylinder release data. The locking cylinder opens if the Approval dates are correct. It sends the data to identify the Lock cylinder opened key to the central data processing device.

DE 197 38 938 A1 describes a generic lock. The castle is a Door lock. There is a relay station on the door frame side, which is connected to a Transmitting and receiving device of the closure enter into data communication can. A data communication of the lock with a key that has a transmitting and receiving device is also possible. There can the wireless data communication between the relay station and the Closure take place at any time. This data communication is not tap-proof. It can therefore not be excluded that data traffic between Lock and relay station is overheard in an unauthorized manner. It exists then there is the risk of the data being transmitted in encrypted form security-relevant data are recognized.

The invention has for its object to provide measures with which the security of the generic closure is increased.

This task is primarily and essentially the subject of Claim 1 solved, in which it is based on the fact that a Data communication between the lock and the data transmission station only when identified an authorized key is possible. As a result of this training of known locking device, the data traffic takes place between Data transfer station and shutter still take place wirelessly. The However, data communication is only possible if there is a person authorized to transfer data is located near the locking device. Since such a key is usually issued by a data communication is carried out by a person authorized to program only take place when such a person is near the locking device located. Because of the relatively short range of the electromagnetic Data transmission signal is largely ensured in this way that because of the presence of a lock or person authorized to program equipment or persons who unauthorized data traffic want to eavesdrop, be recognized. The device also stands out the known device in that the closure side Data communication is carried out directly with the locking cylinder. The in the Items specified in further claims relate to both advantageous Developments on the subject of claim 1 as well as simultaneously of this and of the above-mentioned task, independent technical solutions. It is suggested there that the Data transmission station and the data processing device spatially are separated from one another and in particular are wired to one another. It is also proposed that the data exchange between the Data transmission station and the locking cylinder via the intermediate transmission / Receiving device of the key is carried out. The key is given to this Variant the function of a relay between the locking cylinder and Data transfer station. Without the presence of the key there is none Data communication between data transfer station and locking cylinder possible. Further it is proposed that the activation signal from the lock cylinder is released in particular after a mechanical actuation and the data sent by the key, in particular identification data received by the lock cylinder as well as by the data transmission station become. The data transmission station therefore hears the communication from the key to the locking cylinder. It can further be provided that the Data sent by the data transmission station first from the key are received and forwarded to the locking cylinder. This Data in particular include release data or programming data. The Data sent from the lock cylinder, received from the key, to the data transmission station to be forwarded include, in particular Event data or programming termination data. It is special Advantage if the key is only on a low frequency, e.g. 125 kHz receives. This is the frequency that is also used to activate the key is used. On this frequency, the key receives everyone from Lock cylinder sent data. These data are in particular: Event data that reflect the operating status of the locking cylinder For example, whether it has been moved from a locked position to an open position. The locking cylinder preferably transmits on this low frequency. in the In return, the key only transmits on a high frequency in the UHF Range, for example at 433 MHz. In a further development of the invention provided that the data exchange from the data transmission station to Lock cylinder directly, especially on a high frequency and the Data exchange from the locking cylinder to the data transfer station via the key, especially from the lock cylinder to the key on a low frequency and from the key to the data transmission station at a high frequency takes place. In this variant, too, the key has a fixed one Reception frequency, which is low and a fixed, of the low frequency different transmission frequency, which is a high frequency. Also the Lock cylinder works depending on whether it works as a transmitter or receiver on one other frequency. It transmits at the low frequency and receives that high frequency. In a development of the invention it is provided that the Key can also receive the high frequency. This is especially so advantageous if the key also contains data from the data transmission station received to forward them to the lock cylinder. The key works as a relay between the data transmission station and Lock cylinder. It receives security-relevant data at a high frequency and sends it, after he has saved it temporarily to the lock cylinder. The For this purpose, the key can be in one with the data transmission station mutual data exchange are brought. It can further be provided that the Lock cylinder directly with the data transfer station in one mutual data exchange is brought. This data exchange can be done via the high frequency are handled. The data transmission station can stationary and wired to a central data processing device his. In a further development of the invention it is also provided that the Data transmission station is assigned to a mobile programming device. According to the invention, the programming device can only with the Locking cylinders enter into data communication if they have the correct key beforehand is recognized either by the programming device or by the locking cylinder. Communication between the data transmission station and the Lock cylinder can tear off instantly if from the lock cylinder or from the Data transmission station no longer a key authorization signal from one authorized key is received. As a result, the Data communication breaks off if, for example, one carrying the key authorized person to leave the reception area of the / Receiving devices from data transmission station or locking cylinder away.

The invention further relates to a key for a locking device as it was previously described. The key is characterized by a Receiving device for receiving lower frequencies, in particular 125 kHz transmitted data and a transmitter to transmit this data a high frequency in the VHF range, in particular 433 MHz. As a result of this There is only one high-frequency transmitter in the key. This reduces parts costs. The same applies to the locking cylinder. This needs to have only one radio frequency receiver. The data transmission station can be used for several locks / lock cylinders at the same time. she can at some distance from the lock cylinder, that is in particular be arranged within the masonry, i.e. on the frame side. The key and the lock cylinder has in addition to the transmission and Receiving devices also memory devices and processor devices. In particular, microprocessors are provided. The key can be Batteries are operated. But it can also use its operating energy refer elsewhere. The locking cylinder also works preferentially in battery operation, since in addition to the actuation of the electrical guard locking, only the transmission energy for the Activation signal must be provided.

The invention relates to both locking cylinders with one or both sides Key insertion channels as well as single or double-sided actuation knobs. The transmitting and receiving device is preferably located for the low frequencies in the outside knob or in the outside locking mechanism. The additional broadcast and On the other hand, receiving equipment for the high frequencies can either be or be provided in the inner knob.

The invention also relates to a method for operating a Locking device as previously described, one Data communication between the shutter and the data transmission station only at the An authorized key is identified. Data communication takes place in particular only as long as from the data transmission station and / or an authorization signal is received by the key from the lock.

Embodiments of the invention are described below with reference to the attached Drawings explained. Show it:

Fig. 1 is a block diagram of a first embodiment of a locking device,

Fig. 2 shows the flowchart of a data communication,

Fig. 3 shows a second embodiment of the invention in the form of a block diagram,

Fig. 4 is a further flow chart for a data exchange,

Fig. 5 is a further block diagram,

Fig. 6 shows a further flow chart,

Fig. 7 is a fourth block diagram and

Fig. 8 shows a fourth flowchart.

The locking device shown in FIG. 1 consists of a central data processing device 8 , which can be a PC. This central data processing device can be connected to a data transmission station 6 by means of a wire connection 7 . However, the data transmission station 6 can also be integrated in the data processing device 8 . If the wire connection 7 is a longer wire connection, the data transmission station 6 forms a local station.

The data transmission station is arranged in the vicinity of a door with a locking cylinder according to the invention. The data transmission station 6 is arranged at a suitable location, for example somewhere near the frame in the masonry. The data transmission station 6 has a high-frequency transmission / reception device 12 . In the embodiment shown in FIG. 1, it is sufficient if the local data transmission station 6 has only one RF receiving device. The transceiver preferably operates at 433 MHz. The data transmission station 6 also has a microprocessor 13 .

In any case, the locking cylinder 2 belongs to the shooting device. This lock cylinder 2 can have mechanical tumblers, which are sorted in a known manner by profiling the beard of a flat key. The lock cylinder also has an electrically actuated tumbler, which can be moved from a locked position to a release position. The cylinder can be rotated in the release position. Not in the locked position. The locking cylinder 2 can have key insertion channels and / or an inner and / or an outer knob. In the case of a knob cylinder, there is an antenna 3 in the outside knob for transmitting a low-frequency signal, for example at 125 kHz. The inside knob can have the batteries. This knob also has a microprocessor and a receiver 4 . This receiver is designed to receive signals that are transmitted at high frequencies, for example 433 MHz. All of this is done with energy supplied by a battery.

The key has a receiving antenna 9 , which is designed for receiving the low-frequency signal. The key also has a microprocessor 10 and a transmitter 11 with a transmitting antenna. The transmitter 11 is designed for the emission of a data signal at a high frequency.

The operation of the locking device shown roughly schematically in FIG. 1 is the following: With reference to the flow chart according to FIG. 2, the locking cylinder is mechanically activated in step a. This can be done by touching, turning or pressing. After the lock cylinder has been activated, an activation signal is sent from the lock cylinder 2 to the key 1 . This signal is sent at 125 kHz by antenna 3 and received by antenna 9 of the key located at a short distance from antenna 3 . The activation signal sets the microprocessor 10 in operation in the key 1 . This reads activation data from the activation signal. These are checked c in the key for membership or authorization. If the test is positive, this is the case if the key 1 affirms its belonging to the locking cylinder 2 or its authorization to actuate the locking cylinder 2 , the key sends d release data to the locking cylinder 2 by means of the antenna of the transmitter 11 . This is done at 433 MHz. The release data is also received by the data transmission station 6 . This processes this data with the microprocessor 13 and sends corresponding data via the data connection 7 to the central data processing device 8 . The locking cylinder 2 is unlocked so that the knob 3 can be operated. It then sends e event data via the antenna 3 to the key. This event data contains information about the locking status and the locking actuation of the locking cylinder 2 . The key receives this event data and sends it f to the data transmission station 6 , from where it is forwarded to the data processing device 8 by means of the wire connection 7 .

In this variant, the key acts as a relay in order to transmit data wirelessly from the locking cylinder to the data transmission station 6 .

The key 1 fulfills the same function in the block diagram shown in FIG. 3, the function of which is the following with reference to the flowchart of FIG. 4: the locking cylinder is first activated mechanically a. An activation signal b is sent from the lock cylinder to the key. The membership and authorization check c mentioned above takes place there. In addition, it is checked whether there is programming authorization. If the programming authorization is present, the key sends programming release data d to the locking cylinder 2 and the data transmission station 6 . This data transmission takes place by means of the high frequency (433 MHz). The programming e then takes place from the data transmission station 6 directly to the locking cylinder 2 , with the data being transmitted via the high frequency here as well. The end of programming f is communicated to the data transmission station 6 via the key 1 . For this purpose, the antenna 3 sends a low-frequency signal to the key 1 , which forwards a high-frequency signal g to the data transmission station 6 .

The data exchange, which takes place in accordance with the flow chart in FIG. 6 in a configuration in accordance with FIG. 5, is likewise first activated for the locking cylinder and the key is “woken up” (a). The authorization check then takes place. Event data b is then sent from the locking cylinder 2 to the key 1 . This is also done at a low frequency. This data is forwarded to the data transmission station 6 by the key c by means of the high frequency. The data transfer station 6 sends then programming data 6 to the key. 1 This is done with the high frequency. The key also sends this data to the locking cylinder 2 at high frequency e. In order to implement this configuration, it is necessary that the key 1 is not only equipped with a high-frequency transmitter. The key also needs a receiving device for the 433 MHz data in order to receive the high-frequency data packets sent by the data transmission station. However, the same high-frequency antenna is used. The data exchange method as shown in FIG. 8 requires a configuration as shown in FIG. 7. In this configuration, the key has only one transmitter 11 for the high-frequency signal and only one receiver 9 for the low-frequency signal. The lock cylinder 2 , on the other hand, has a transmitter and receiver 4 for the high-frequency signal. The locking cylinder 2 is in mutual data exchange with a high-frequency transmitter / receiver of the data transmission station 6 . Programming data and event data can be exchanged directly between the locking cylinder and data transmission station 6 via this high-frequency, direct data connection. As soon as the key 1 is activated by the locking cylinder 2 , the locking cylinder 2 sends readiness data to the control center b. If programming is pending, it is first transferred to cylinder 2 . Only then is the key e released or refused. The readiness to receive data is previously transmitted from the locking cylinder 2 to the key d. The locking cylinder 2 then transmits the current event to the control center. This is also done directly. In this variant, the data exchange between the key and the data transfer station can take place via a lock cylinder as a relay.

All of the features disclosed are (in themselves) essential to the invention. In the The disclosure content of the application is hereby also disclosed associated / attached priority documents (copy of the pre-registration) fully included, also for the purpose of describing the characteristics of these documents To include claims of the present application.

Claims (19)

1. Closing device with a transmit and receive means (9, 11) having keys (1), the transmitting means is engageable (11) enabling by receipt of an activation signal in a wireless data exchange with a stationary transmitting and receiving device operating state, and with a Lock ( 2 ) which, after a data exchange of the key ( 1 ) with the fixed transmitting and receiving device and an identification of the key on the basis of the exchanged data as authorized to open, changes from a blocking position to a release position with a data exchange connection to a central data processing device ( 8 ) for the transmission of event and / or programming data, and with a data transmission station ( 6 ) that is neither wired with the key ( 1 ) nor with the lock ( 2 ), for wireless data exchange with the key ( 1 ) and / or the lock ( 2 ), thereby marked certifies that data communication between the lock ( 2 ) and the data transmission station ( 6 ) is only possible if an authorized key ( 1 ) is identified. 2. Locking device according to claim 1 or in particular according thereto, thereby characterized in that the data communication on the lock side with the Lock cylinder is done. 3. Locking device according to one or more of the preceding claims or in particular according thereto, characterized in that the data transmission station ( 6 ) and the data processing device ( 8 ) are spatially separated and in particular are wired to one another. 4. Locking device according to one or more of the preceding claims or in particular according thereto, characterized in that the data exchange between the data transmission station ( 6 ) and the locking cylinder ( 2 ) via the intermediate transmitting / receiving device ( 9 , 11 ) of the key ( 1 ) , 5. Locking device according to one or more of the preceding claims or in particular according thereto, characterized in that the activation signal is emitted by the locking cylinder ( 2 ) in particular after a mechanical actuation and the data sent by the key ( 1 ), in particular identification data, both from the locking cylinder ( 2 ) as well as from the data transmission station ( 6 ). 6. Locking device according to one or more of the preceding claims or in particular according thereto, characterized by data sent from the data transmission station ( 6 ), received by the key ( 1 ) and forwarded to the locking cylinder ( 2 ), in particular release data, programming release data or programming data. 7. Locking device according to one or more of the preceding claims or in particular according thereto, characterized by data sent by the locking cylinder ( 2 ), received by the key ( 1 ) and forwarded to the data transmission station ( 6 ), in particular event or programming completion data. 8. Locking device according to one or more of the preceding claims or in particular according thereto, characterized in that direct wireless data communication between the data transmission station ( 6 ) and locking cylinder ( 2 ) is only possible if an authorization signal from the data transmission station ( 6 ) and / or the locking cylinder is receivable. 9. Locking device according to one or more of the preceding claims or in particular according thereto, characterized in that the key ( 1 ) only receives at a lower frequency, for example 125 kHz, or the locking cylinder ( 2 ) transmits only at this frequency and the key ( 1 ) only transmits at a high frequency, e.g. 433 MHz, or the locking cylinder ( 2 ) only receives at this frequency. 10. Locking device according to one or more of the preceding claims or in particular according thereto, characterized in that the data exchange from the data transmission station ( 6 ) to the locking cylinder ( 2 ) directly, in particular at a high frequency, and the data exchange from the locking cylinder ( 2 ) to the data transmission station ( 6 ) via the key ( 1 ), in particular from the locking cylinder ( 2 ) to the key ( 1 ) at a low frequency and from the key ( 1 ) to the data transmission station ( 6 ) at a high frequency. 11. Locking device according to one or more of the preceding Claims or in particular according thereto, characterized in that the Key can also receive on the high frequency. 12. Locking device according to one or more of the preceding claims or in particular according thereto, characterized in that the key ( 1 ) can be brought into a mutual data exchange with the data transmission station, in particular on the high frequency. 13. Locking device according to one or more of the preceding Claims or in particular according thereto, characterized in that the Lock cylinder especially on the high frequency with the Data transmission station in a mutual data exchange especially for Transmission of programming data is feasible. 14. Locking device according to one or more of the preceding Claims or in particular according thereto, characterized by a Double lock cylinder, the outside knob or the outside Locking mechanism the transmitting and receiving device for the low Has frequencies and the inside of an internal locking mechanism or a Has inner knob that the transmitting and receiving device for is assigned to high frequencies. 15. Locking device according to one or more of the preceding claims or in particular according thereto, characterized in that the data transmission station ( 6 ) is assigned to a mobile programming device. 16. Keys for a locking device according to one or more of the preceding claims, characterized by a receiver for Reception of data sent at a low frequency (e.g. 125 kHz) and a transmitter for retransmitting this data on a high Frequency, e.g. 433 MHz. 17. Key according to one or more of the preceding claims or in particular according thereto, characterized by a microprocessor with a data memory ( 10 ). 18. Method for operating a locking device with a key ( 1 ) having a transmitting and receiving device ( 9 , 11 ), the transmitting device ( 11 ) of which can be brought into an operating state enabling a wireless data exchange with a fixed transmitting and receiving device by receiving an activation signal , and with a lock ( 2 ), which, after a data exchange of the key ( 1 ) with the fixed transmitting and receiving device and an identification of the key based on the exchanged data as an authorized to open, changes from a locked to a release position, actuated with a data exchange connection to a central data processing device ( 8 ) for the transmission of event and / or programming data and with a data transmission station ( 6 ) that is neither wired with the key ( 1 ) nor with the lock ( 2 ), for wireless data exchange with the key ( 1 ) and / or the verse Conclusion ( 2 ), characterized in that data communication between the lock ( 2 ) and the data transmission station ( 6 ) takes place only when an authorized key ( 1 ) is identified. 19. The method according to claim 17, characterized in that the data communication breaks off when neither the lock ( 2 ) nor the data transmission device ( 6 ) receives an authorized key signal from an authorized key ( 1 ).